Shock absorber and method of manufacturing the shock absorber

What is claimed is: 1 . A shock absorber, comprising: a first cylindrical body formed in a cylindrical shape; a second cylindrical body surrounding an outer peripheral surface of the first cylindrical body and provided movably in a direction of an axis of the first cylindrical body with respect to the first cylindrical body; a spring provided between the outer peripheral surface of the first cylindrical body and an inner peripheral surface of the second cylindrical body and applying a force in a direction of separating the first cylindrical body and the second cylindrical body; a spring seat portion that is a cylindrical body provided between the outer peripheral surface of the first cylindrical body and the inner peripheral surface of the second cylindrical body and supporting an end portion of the spring in the axis direction, the spring seat portion being made of resin and being arranged movably in a direction intersecting the axis direction, wherein the spring seat portion includes a first cylindrical portion having a cylindrical shape and supporting the end portion of the spring, a second cylindrical portion having a cylindrical shape and continuously extending from the first cylindrical portion toward a side opposite to the spring and a through hole formed in the first cylindrical portion in the direction intersecting the axis direction, an outer diameter of the second cylindrical portion is smaller than an outer diameter of the first cylindrical portion, an inner diameter of the second cylindrical portion is smaller than an inner diameter of the first cylindrical portion, and an inner peripheral surface of the second cylindrical portion has a curved surface portion of which an inner diameter increases as it approaches the first cylindrical portion. 2 . The shock absorber according to claim 1 , wherein the spring seat portion has a biased portion in which a part of an outer peripheral surface of the spring seat portion is partially biased toward an inner peripheral surface side. 3 . The shock absorber according to claim 2 , wherein the through hole is bored in the biased portion. 4 . The shock absorber according to claim 1 , wherein an annular sliding member is provided on the outer peripheral surface of the spring seat portion and is slidable on the inner peripheral surface of the second cylindrical body, and the sliding member is made of a material with a smaller coefficient of friction than the spring seat portion. 5 . The shock absorber according to claim 2 , wherein an annular sliding member is provided on the outer peripheral surface of the spring seat portion and is slidable on the inner peripheral surface of the second cylindrical body, and the sliding member is made of a material with a smaller coefficient of friction than the spring seat portion. 6 . The shock absorber according to claim 3 , wherein an annular sliding member is provided on the outer peripheral surface of the spring seat portion and is slidable on the inner peripheral surface of the second cylindrical body, and the sliding member is made of a material with a smaller coefficient of friction than the spring seat portion. 7 . A shock absorber, comprising: a first cylindrical body formed in a cylindrical shape; a second cylindrical body surrounding an outer peripheral surface of the first cylindrical body and provided movably in a direction of an axis of the first cylindrical body with respect to the first cylindrical body; a spring provided between the outer peripheral surface of the first cylindrical body and an inner peripheral surface of the second cylindrical body and applying a force in a direction of separating the first cylindrical body and the second cylindrical body; and a spring seat portion that is a cylindrical body provided between the outer peripheral surface of the first cylindrical body and the inner peripheral surface of the second cylindrical body and supporting an end portion of the spring in the axis direction, the spring seat portion being made of resin and being arranged movably in a direction intersecting the axis direction, wherein the spring seat portion includes a first cylindrical portion having a cylindrical shape and supporting the end portion of the spring, a second cylindrical portion having a cylindrical shape and continuously extending from the first cylindrical portion toward a side opposite to the spring, a groove located on an outer peripheral surface of the spring seat portion and extending from a tip end surface of the second cylindrical portion toward a tip end surface of the first cylindrical portion, and a through hole positioned at a bottom of the groove and formed in the first cylindrical portion in a direction intersecting an axis of the spring seat portion, an outer diameter of the second cylindrical portion is smaller than an outer diameter of the first cylindrical portion, an inner diameter of the second cylindrical portion is smaller than an inner diameter of the first cylindrical portion, and an inner peripheral surface of the second cylindrical portion has a curved surface portion of which an inner diameter increases as it approaches the first cylindrical portion. 8 . A method of manufacturing the spring seat portion for the shock absorber according to claim 1 , wherein the spring seat portion is manufactured through the steps of: preparing a first mold and a second mold, the first mold constituting a female mold configured to form an outer peripheral surface of the spring seat portion, the first mold including a protruding portion protruding radially inward from an inner peripheral surface of the female mold and extending from a bottom of the female mold toward an open end, the second mold constituting a male mold movably fitted in the first mold in a direction along an axis of the spring seat portion and configured to form an inner peripheral surface of the spring seat portion, and the second mold including an outer peripheral surface that is movable in a moving direction of the male mold while being in contact with a radially inner surface of the protruding portion; clamping the second mold against the first mold after preparing the first mold and the second mold; filling resin in a liquid state into a part interposed between the first mold and the second mold after clamping the second mold against the first mold; opening the second mold with respect to the first mold after the filled resin is hardened into a resin-molded spring seat portion; and removing the resin-molded spring seat portion from the part after opening the second mold with respect to the first mold, wherein the second mold expands its diameter, as it goes rearward from a tip end part that is fitted into the first mold, in a curved line shape over an entire circumference of an outer peripheral surface. 9 . A method of manufacturing the spring seat portion for the shock absorber according to claim 7 , wherein the spring seat portion is manufactured through the steps of: preparing a first mold and a second mold, the first mold constituting a female mold configured to form an outer peripheral surface of the spring seat portion, the first mold including a protruding portion protruding radially inward from an inner peripheral surface of the female mold and extending from a bottom of the female mold toward an open end, the second mold constituting a male mold movably fitted in the first mold in a direction along an axis of the spring seat portion and configured to form an inner peripheral surface of the spring seat portion, and the second mold including an outer peripheral surface that is movable in a moving direction of the male mold while being in contact with a radially inner surface of th